2012-09-26 23:59:58 -04:00
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/*
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Copyright (C) 2012, Aaron Lindsay <aaron@aclindsay.com>
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This file is part of Aedrix.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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2012-09-17 23:27:11 -04:00
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#include <list.h>
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#include <frames.h>
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#include <print.h>
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2012-11-15 00:27:49 -05:00
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#include <types.h>
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2012-09-17 23:27:11 -04:00
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2013-01-01 23:54:19 -05:00
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#include <arch/properties.h>
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2013-01-01 23:42:45 -05:00
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struct dlist_node free_frames_list;
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2013-01-01 23:42:45 -05:00
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void frames_init() {
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init_list(&free_frames_list);
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2012-09-17 23:27:11 -04:00
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}
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2013-01-01 23:42:45 -05:00
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/*
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* Adds a page frame struct to the list of free page frames. Presupposes
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* free_frames_list is a properly initialized list.
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*/
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static void insert_page_frame(struct frame *p) {
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if (list_empty(&free_frames_list) || p->address < container(free_frames_list.next, struct frame, list)->address) {
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insert_after(&free_frames_list, &p->list);
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} else if (p->address > container(free_frames_list.prev, struct frame, list)->address) {
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insert_before(&free_frames_list, &p->list);
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} else {
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struct frame *it;
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for_each_list(it, &free_frames_list, struct frame, list) {
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2012-09-17 23:27:11 -04:00
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if (p->address < it->address) {
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insert_before(&it->list, &p->list);
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return;
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}
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}
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print("Error: failed to insert page frame\n");
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2012-09-17 23:27:11 -04:00
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}
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}
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2013-01-01 23:42:45 -05:00
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/*
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* Called to add a segment of memory to the frame allocation pool.
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*/
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static void add_physical_memory(void *start, void *end) {
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unsigned int num_pages, usable_pages;
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struct frame *p;
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void *page;
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2012-09-29 23:26:43 -04:00
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//If region starts at 0x0, make it start at next page to not screw up null pointer detection, etc.
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if (start == 0)
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start = (char *)start + CONFIG_PAGE_SIZE;
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2012-09-17 23:27:11 -04:00
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//make sure both start and end address are aligned to the size of a page
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if ((arch_uint_ptr)start % CONFIG_PAGE_SIZE != 0)
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start = (char*)start + (CONFIG_PAGE_SIZE - ((arch_uint_ptr)start % CONFIG_PAGE_SIZE));
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if (((arch_uint_ptr)end + 1) % CONFIG_PAGE_SIZE != 0)
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end = (char*)end - ((arch_uint_ptr)end + 1) % CONFIG_PAGE_SIZE;
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2012-09-25 22:44:19 -04:00
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2013-01-01 23:53:18 -05:00
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if ((char *)end + 1 - (char *)start < CONFIG_PAGE_SIZE<<1) {
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print("Error: Supplied memory area(%x,%x) is smaller than the page size (%d)\n", (arch_uint_ptr)start, (arch_uint_ptr)end, CONFIG_PAGE_SIZE);
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return;
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}
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//reserve enough pages at the front of this chunk of memory to hold the
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//page structs, then build the structs and add them to the list
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//TODO we're potentially losing memory here because we're calculating
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//the number of page structs we need even for those pages that will contain only page structs
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num_pages = ((char *)end + 1 - (char *)start) / CONFIG_PAGE_SIZE;
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usable_pages = num_pages - num_pages * sizeof(struct frame) / CONFIG_PAGE_SIZE;
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if (num_pages * sizeof(struct frame) % CONFIG_PAGE_SIZE)
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usable_pages--;
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p = (struct frame *)start;
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for (page = ((char *)start) + (num_pages - usable_pages)*CONFIG_PAGE_SIZE; page < end; page = (void *)(((char *)page) + CONFIG_PAGE_SIZE)) {
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p->address = page;
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insert_page_frame(p);
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p++;
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}
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}
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2013-01-01 23:42:45 -05:00
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/*
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* Attempt to get 2^power contiguous page frames. Returns the frame struct of
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* the first frame on success or a null pointer on failure.
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*/
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struct frame* get_free_frames(unsigned int power) {
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unsigned int num_pages = 1<<power;
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struct frame *it;
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2013-01-01 23:42:45 -05:00
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if (list_empty(&free_frames_list)) {
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print("Error: Out of memory\n");
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return (struct frame*)0;
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}
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2012-09-29 23:26:43 -04:00
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if (!num_pages) {
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print("Error: mm_get_free_pages must be called with power from 0 to 31, inclusive (power=%d)\n", power);
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return (struct frame*)0;
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}
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2013-01-01 23:42:45 -05:00
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for_each_list(it, &free_frames_list, struct frame, list) {
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unsigned int curr_pages = 1;
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struct frame *it2;
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for (it2 = container(it->list.next, struct frame, list);
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it2->list.next != &free_frames_list && curr_pages < num_pages;
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it2 = container(it2->list.next, struct frame, list)) {
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if ((char*)it2->address != (char*)container(it2->list.prev, struct frame, list)->address + CONFIG_PAGE_SIZE) {
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it = it2; //fast-forward 'it' to start of next contiguous section of pages
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break;
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} else {
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curr_pages++;
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}
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}
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if (curr_pages == num_pages) {
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remove_splice(&it->list, it2->list.prev);
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return it;
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}
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}
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return (struct frame*)0;
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}
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2013-01-01 23:42:45 -05:00
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/*
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* Return pages allocated to the pool of unused pages.
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*/
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int put_free_frames(struct frame *f) {
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struct frame *it;
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for_each_list(it, &free_frames_list, struct frame, list) {
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if (f->address < it->address) {
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insert_splice_before(&it->list, &f->list, f->list.prev);
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2012-09-17 23:27:11 -04:00
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return 0;
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}
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}
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return 1;
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}
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static inline int mmu_region_contains(void *lower_a, void *upper_a, void *lower_b, void *upper_b) {
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return lower_b >= lower_a && upper_b <= upper_a;
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}
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static inline int mmu_region_contains_single(void *lower_a, void *upper_a, void *ptr) {
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return lower_a <= ptr && ptr <= upper_a;
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}
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#define page_round_down(ptr) (((uint32)ptr) & ~(CONFIG_INIT_PAGE_SIZE-1))
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#define page_round_up(ptr) (((((uint32)ptr) & ~1) + (CONFIG_INIT_PAGE_SIZE-1) ) & ~(CONFIG_INIT_PAGE_SIZE-1))
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/* Called once per physical memory region by bootup code. This function is
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* responsible for only adding (via add_physical_memory()) those parts of the
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* memory region which are still available (i.e. aren't in the kernel and
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* haven't been remapped anywhere else. */
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void declare_memory_region(void *lower, void *upper) {
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void *k_section_start_phys = (void *)page_round_down(kernel_start_physical());
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void *k_section_end_phys = (void *)(page_round_up(kernel_end_physical()) - 1);
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void *k_section_start_virt = (void *)page_round_down(kernel_start_virtual());
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void *k_section_end_virt = (void *)(page_round_up(kernel_end_virtual()) - 1);
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if (upper - lower < 1) {
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print("Warning: declare_memory_region() called with lower=%x, upper=%x. Ignoring.\n", lower, upper);
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return;
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}
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if (mmu_region_contains(lower, upper, k_section_start_phys, k_section_end_phys)) {
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//Don't map any of the physical kernel's memory
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declare_memory_region(lower, (void *) ((char *)k_section_start_phys - 1));
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declare_memory_region((void *) ((char *)k_section_end_phys + 1), upper);
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add_physical_memory(kernel_end_virtual(), k_section_end_virt);
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} else if (mmu_region_contains(lower, upper, k_section_start_virt, k_section_end_virt)) {
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declare_memory_region(lower, (void *) ((char *)k_section_start_virt - 1));
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declare_memory_region((void *) ((char *)k_section_end_virt + 1), upper);
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} else if (mmu_region_contains_single(lower, upper, k_section_start_phys)) {
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if ((void*)((char*)lower + 1) < k_section_start_phys)
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declare_memory_region(lower, (void *) ((char *)k_section_start_phys - 1));
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} else if (mmu_region_contains_single(lower, upper, k_section_end_phys)) {
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if (k_section_end_phys < (void*)((char*)upper - 1))
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declare_memory_region((void *) ((char *)k_section_end_phys + 1), upper);
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} else if (mmu_region_contains_single(lower, upper, k_section_start_virt)) {
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if ((void*)((char*)lower + 1) < k_section_start_virt)
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declare_memory_region(lower, (void *) ((char *)k_section_start_virt - 1));
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} else if (mmu_region_contains_single(lower, upper, k_section_end_virt)) {
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if (k_section_end_virt < (void*)((char*)upper - 1))
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declare_memory_region((void *) ((char *)k_section_end_virt + 1), upper);
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} else {
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add_physical_memory(lower, upper);
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}
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}
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